Cannabis and Rheumatoid Arthritis: A Scoping Review Evaluating the Benefits, Risks, and Future Research Directions

Rheumatoid diseases, including rheumatoid arthritis, osteoarthritis, and fibromyalgia, are characterized by progressive inflammation in the musculoskeletal system, predominantly affecting the joints and leading to cartilage and bone damage. The resulting pain and ongoing degradation of the musculoskeletal system contribute to reduced physical activity, ultimately impacting quality of life and imposing a substantial socioeconomic burden. Unfortunately, current therapeutics have limited efficacy in slowing disease progression and managing pain. Thus, the development of novel and alternative therapies is imperative. Cannabinoids possess beneficial properties as potential treatments for rheumatoid diseases due to their anti-inflammatory and analgesic properties. Preclinical studies have demonstrated promising results in halting disease progression and relieving pain. However, there is a scarcity of patient clinical studies, and the available data show mixed results. Consequently, there are currently no established clinical recommendations regarding the utilization of cannabis for treating rheumatoid diseases. In this review, we aim to explore the concept of cannabis use for rheumatoid diseases, including potential adverse effects. We will provide an overview of the data obtained from preclinical and clinical trials and from retrospective studies on the efficacy and safety of cannabis in the treatment of rheumatoid diseases.


INTRODUCTION
Rheumatoid diseases are characterized by progressive chronic inflammation of the musculoskeletal system, afflicting primarily the joints but can lead to systemic comorbidities, such as pulmonary diseases or vasculitis.Chronic inflammation results in cartilage and bone damage, whose deterioration can lead to the disability of the affected patient. 1 Rheumatoid diseases inflict a significant individual and societal burden.Pain and musculoskeletal deficits lead to a progressive decline in physical activity and quality of life and carry the risk of cumulative comorbidities. 2 In addition, medical costs for treatment, as well as reduced work capacity and decreased societal participation of patients with rheumatoid arthritis (RA), have a significant socioeconomic effect on society. 3eating rheumatoid disease is challenging not only because of its progressive nature but also because of the side effects of available therapies. 4oreover, available treatment options cannot reverse rheumatoid diseases.Thus, therapy efforts are divided into preventive medicine (starting treatment before clinical manifestation) and developing new drugs.Three classes of drugs are currently available: (1) disease-modifying anti-rheumatic drugs (DMARDs), which target tumor necrosis factor (TNF)-α, the interleukin (IL)-6 receptor, and stimulate the depletion of T and B cells, thereby slowing the progression of the structural damage; 5,6 (2) nonsteroidal anti-inflammatory drugs, which improve physical function by reducing pain and stiffness, but do not modify disease progression; 4 and (3) glucocorticosteroids, which have a rapid symptomatic and disease-modifying effect. 7olonged use of glucocorticoids and DMARDs has long-term severe adverse effects. 8,9Moreover, patients treated with biological DMARDs have an increased risk of severe infections by tuberculosis and herpes zoster virus, as well as an elevated risk of developing melanoma. 10This exemplifies the need for novel treatment approaches and safe therapeutics.One approach is medicinal cannabis use, which takes advantage of its pain-reducing and immunemodulating features.

CANNABIS AND CANNABINOIDS
Cannabis is the most widely used illicit drug in the world.Cannabis is not a single substance but consists of more than 550 different chemical constituents accumulated in the cannabis plant, among them approximately 150 psychoactive and nonpsychoactive cannabinoids and over 400 noncannabinoids.The cannabis plant (Cannabis sativa) belongs to the Cannabaceae family.There are two major forms of Cannabis sativa: marijuana, which has high levels of the psychoactive tetrahydrocannabinol (THC); and hemp, which has high levels of non-psychoactive cannabinoids and low THC levels. 11The two main pharmacologically active THC compounds are Δ8-THC and Δ9-THC.The main non-psychoactive pharmacologically active cannabinoids include cannabinol, cannabidiol (CBD), and cannabigerol (Figure 1), as well as non-cannabinoids like flavonoids, terpenes, and fatty acids. 12,13][16] The G-proteins act as adaptors that link G-protein coupled receptors to intracellular signaling and regulatory proteins to activate or modulate signaling pathways.Other G-protein coupled receptors, such as GPR55 and GPR18, and transient receptor potential (TRP) channels, such as TRPV2, TRPA1, and TRPM8, are also involved in cannabinoid signaling. 17Highly expressed in the central nervous system, CB1R is found in particularly high levels in the neocortex, hippocampus, basal ganglia, cerebellum, and brainstem. 18Conversely, low expression levels are observed in the peripheral nervous system.The CB1R binds the main active ingredient of marijuana, Δ9-THC, and mediates most of the THC effects in the central nervous system. 19The CB2R is present at high levels in the immune system and is commonly associated with regulating immune function.Additionally, CB2R is also located in the brain, 20 where it is primarily localized to microglia, the central nervous system resident macrophages. 21e fact that both CB1 and CB2 receptors are expressed by immune cells suggests that cannabinoids play an important role in immune system regulation.For example, cannabinoids have been shown to exert anti-inflammatory effects in various in vivo and in vitro experimental models.In addition, several studies have shown that cannabinoids downregulate cytokine and chemokine production and upregulate T-regulatory cells to suppress inflammatory responses. 16,22

Immunomodulatory Effects of Cannabinoids on Rheumatoid Disease Progression: Insights from Preclinical In Vitro Models of Cytokine Regulation
Several studies have reported that CBD reduces the formation of reactive oxygen species and nitric oxide in various cell lines and animal models of inflammation.In addition, CBD blocks production of TNFα, the pro-inflammatory cytokines IL-1β, IL-2, IL-6, and IL-8, and the transcription factor nuclear factor (NF)-κB. 16,23 Furthermore, extract with high CBD content exhibits the remarkable ability to diminish cytokine secretion from T cells derived from human donors.Additionally, a specific strain with high CBD content (CBD-X) demonstrates a potent capacity to effectively suppress cytokine storm in a mouse model. 24re evidence of the ability of cannabinoids to modulate the immune system comes from in vitro studies that showed that Δ9-THC suppressed the cellmediated T helper 1 (Th1) response and enhanced Th2-associated cytokine secretion. 25This response prevents the activation of inflammatory signaling pathways, such as the NF-κB, 26 mitogen-activated protein kinase, and Janus kinase/signal transducer and activator of transcription (JAK/STAT) pathways in immune cells. 27other study, using lipopolysaccharide-activated BV-2 microglial cells, reported that both THC and CBD decreased pro-inflammatory signaling activation by reducing the activation of the JAK/STAT pathway.Furthermore, CBD suppressed NF-κB pathway activity and potentiated an anti-inflammatory negative feedback loop via JAK/STAT3. 28recent study demonstrated that CBD directly affects microRNA (miRNA) expression.Results showed that CBD downregulated miR146a expression, which acts as a negative regulator of inflammation, in both resting and lipopolysaccharidestimulated cells, thereby contributing to CBD's ability to downregulate pro-inflammatory cytokines.Additionally, CBD upregulated miR34a in BV-2 microglia cells, which has several roles in cell survival, such as cell cycle, apoptosis, and differentiation.These results suggest that CBD-induced alterations in miRNA expression are part of the mechanism by which CBD suppresses immune function.29 Similarly, synthetic cannabinoids HU-210 and WIN55,212-2 prevent IL-1α-induced matrix degradation in bovine chondrocytes in vitro.In addition, both cannabinoids inhibited IL-1α-induced proteoglycan breakdown and collagen degradation.Moreover, WIN55,212-2 inhibits inducible nitric oxide synthase and COX-2 expression, as well as NF-κB activation.30 This effect was reproduced using the endocannabinoid anandamide and potentiated by the CB1 and CB2 antagonists AM281 and AM630.32

Insights into Cannabinoid Efficacy in Rheumatoid Disease Progression Management from Animal Studies
Several murine rheumatoid disease animal models have been used to investigate the possible antirheumatic efficacy of cannabinoids.For example, Zurier et al. investigated the impact of orally administering dimethylheptyl-THC-11-oic acid (DMH-11C), a non-psychoactive precursor of THC, on acute inflammation and chronic polyarthritis in male Lewis rats.Acute inflammation was induced by subcutaneously injecting IL-1β or TNFα into pouches on rats' backs.In this model, oral administration of DMH-11C reduced the number of polymorphonuclear leukocytes in the pouches 6 hours after inducing inflammation. 32Furthermore, chronic polyarthritis was induced by intradermal injection of Freund's complete adjuvant (2 ng Mycobacterium butyricum in 0.1 mL mineral oil), which causes polyarthritis in all four paws.This adjuvant-induced chronic polyarthritis was prevented by DMH-11C. 32milarly, tetrahydrocannabinolic acid and THC alleviate collagen-induced arthritis in mice via CB1 by preventing the infiltration of inflamed cells into the synovium, which reduces hyperplasia and cartilage damage. 33Moreover, nociception can be diminished by adding THC and the endocannabinoid anandamide to male Sprague-Dawley rats after adjuvantinduced arthritis.The CB1 receptor antagonist SR142716A blocks anti-nociception developed after administering THC but not anandamide, suggesting that anandamide signaling is not limited to the CB1 receptor pathway.However, the effects of THC and anandamide can be inhibited by naloxone, indicating that they induce the release of endogenous opioids that mediate the anti-nociceptive effect. 34al or intraperitoneal administration of CBD has an anti-arthritic effect in acute and chronic relapsing collagen-induced arthritis (CIA).In both methods, joints were protected against severe damage via reduced interferon γ production and TNFα release from knee synovial cells. 35In addition, THC induced a CB1-mediated anti-nociceptive, but not hyperalgesic, effect, as observed in an adjuvantinduced arthritis model in Sprague-Dawley rats. 36e synthetic non-psychoactive cannabinoid HU-320 has potent anti-inflammatory and immunosuppressive properties.These anti-arthritic effects were observed in a murine collagen-induced arthritis model.In addition, daily peritoneal administration of HU-320 significantly ameliorated CIA by protecting the paw joints from pathologic damage and suppressing TNFα secretion from macrophages in the serum. 37ansdermal CBD administration also reduces inflammation and pain-related behaviors in an adjuvant-induced arthritis model in Sprague-Dawley rats.Cannabidiol (CBD) gel, applied for four consecutive days on the afflicted joint, significantly reduced joint swelling and pro-inflammatory markers.The paw withdrawal latency to noxious heat stimulation recovered to near baseline, but exploratory behavior was not altered, suggesting that CBD had a limited impact on brain function.These results indicate that transdermal administration of CBD can exert long-lasting anti-arthritic effects achieved without neuronal side effects (summarized in Table 1).

Cannabinoid Effect on Rheumatoid Disease Progression in Synovial Fluid
In 2007, Richardson et al. showed that the endocannabinoid system plays a role in rheumatoid diseases.The authors examined the synovial fluid of 32 patients with osteoarthritis (OA) and 13 with RA after total knee arthroplasty.The endocannabinoids 2arachidonyl glycerol as well as cannabinoid receptors CB1 and CB2 mRNA and protein levels were found in the synovial fluid of OA and RA patients but not in healthy donors.Furthermore, receptor stimulation was correlated to the activation of extracellular signal-regulated kinase (ERK1/2), which was blocked by the CB1 antagonist SR141716A.These results suggest the involvement of the endocannabinoid system in the development of rheumatoid diseases. 39 RA, pro-inflammatory cytokines and matrix metalloproteinases (MMPs) are released into the synovial tissue, where they promote cartilage degradation and bone erosion, leading to bone deformities. 40,41Ex vivo experiments performed by Johnson et al. showed that ajulemic acid, a non-psychoactive cannabinoid acid, suppressed the production of MMPs from fibroblast-like synovial cells taken from the affected joints of patients suffering from OA, or RA, or psoriatic arthritis. 42Furthermore, the synthetic cannabinoids CP55,940 and WIN55,212-2 significantly reduced the secretion of the proinflammatory cytokines IL-6 and IL-8 from IL-1βstimulated synovial fibroblasts extracted from patients with RA with knee joint involvement (OA) and knee joint replacement surgery.This study showed that this effect was not mediated by CB1 and CB2, 43 suggesting the involvement of other cannabisrelated receptors. 43Another group confirmed the WIN55,212-2 results and further showed that treatment reduced the release of the MMP3 from synovial fibroblasts from RA and OA patients.This effect was mediated by transient receptor potential cation channel (TRP) subfamily V1 (TRPV1) and October 2023  Volume 14  Issue 4  e0022 TRP subfamily A1 (TRPA1), not CB1 and CB2. 44A follow-up study showed that CBD also reduces the secretion of IL-6, IL-8, and MMP3 from synovial fibroblasts from RA patients.Furthermore, CBD increased intracellular calcium levels and reduced cell viability via TRPA1 but not TRPV1.Moreover, blocking the mitochondrial permeability transition pore by cyclosporine A prevented the CBD effects on cell viability and IL-8 production.Additionally, CBD's effects were enhanced by adding TNFα, suggesting that CBD preferably acts in a proinflammatory environment and that CBD might ameliorate arthritis by targeting pro-inflammatory synovial fibroblasts. 45 the same year, another group showed in a 4week, randomized, placebo-controlled, doubleblinded study in a spontaneous canine model of OA that CBD, administered as naked CBD or liposomalencapsulated CBD, could inhibit the production of pro-inflammatory cytokines IL-6 and TNFα while also increasing the anti-inflammatory cytokine IL-10.Alongside, the pain was significantly decreased, which led to a dose-dependent increase in mobility.Interestingly, naked CBD required a higher dosage (50 mg/day) for the same effect as 20 mg/day of liposomal CBD.These results point to the safe therapeutic potential of cannabinoids for alleviating pain. 46 accordance with these studies, we published similar results using high-THC or high-CBD extracts in mouse models of systemic or local lung inflammation.High-CBD, but not high-THC, attenuated the pro-inflammatory cytokines IL-1β and TNFα levels alongside a concomitant increase in the antiinflammatory cytokine IL-10.Moreover, we observed that the migration of inflammatory neutrophils to the site of infection was decreased by the high-CBD extract, resulting in reduced levels of the proinflammatory cytokines IL-1β, MCP-1, IL-6, and TNFα in the inflamed lung.However, of the three tested high-CBD extracts, only one showed these inhibitory effects, explaining why studies on the influence of cannabinoids show ambiguous results.More research is needed into this phenomenon, including clinical studies on humans with extracts that showed therapeutic effects in previous animal studies. 24 contrast to the anti-arthritic properties observed in animal and ex vivo studies, Kotschenreuther et al. observed an increase in the differentiation of pro-inflammatory Th17 T-helper cells isolated from the peripheral blood of patients with rheumatoid or psoriatic arthritis or systemic lupus erythematosus treated with CBD oil or the endogenous cannabinoid anandamide for 4-8 weeks.The authors argue that the variability of CBD receptors between animal models and humans could contribute to the discrepancies.Moreover, many animal studies use CB1 or CB2 inhibitors to investigate the function of cannabinoids.Therefore, the authors suggest using cannabinoids in RA patients with caution (summarized in Table 2). 47

Effects of Medicinal Cannabis on Rheumatoid Pain
Rheumatoid disease is characterized by chronic pain, which significantly decreases the quality of life of those afflicted.Currently, efficacious treatment and adequate pain management are unavailable for rheumatoid diseases.Thus, alternative therapies for pain management are needed.The impact of medicinal cannabis extracts on chronic pain has been evaluated in several randomized, double-blind, placebocontrolled clinical trials.For example, Notcutt et al. compared three cannabis-based medicinal extracts containing THC, CBD, or a mixture, on 34 patients for 12 weeks.The THC-based extracts were most effective in pain control when used as a sublingual spray, with only mild side effects. 48Another group tested nabiximols (Sativex®) which comprises an even combination of CBD and THC (each 100 microlitres contains 2.7 mg THC and 2.5 mg CBD) on 58 RA patients.Over five weeks, Sativex® was administered as an oromucosal spray in the evening.Patients were evaluated for movement and resting pain, morning stiffness, and sleep quality using the Short Form McGill Pain Questionnaire and the DAS28 measure of disease activity.Statistically significant improvements with Sativex® alleviated movement and resting pain as well as sleep quality, but not morning stiffness.In addition, no signs of withdrawal and severe side effects were observed. 49her studies tested the analgesic effects of cannabis in patients with neuropathic pain when administered via a vaporizer.In one double-blind, placebo-controlled crossover study, 35 patients with central and peripheral neuropathic pain received THC-based cannabis medium-dose (3.53%) or lowdose (1.29%), or placebo.As measured by the pain intensity score of a visual analogue scale, the analgesic response showed an effect similar to efficacies obtained by conventional pain relievers.Only mild reversible psychoactive effects of limited time dura-  tion were measured. 50Another recent randomized, placebo-controlled four-way crossover trial investigated the analgesic effects of inhaled pharmaceuticalgrade cannabis.Four different cannabis variants with known THC and CBD content were tested on a small group of 20 fibromyalgia patients.Varieties with high THC content significantly reduced the pressure pain threshold relative to placebo after a single inhalation.Interestingly, this effect was diminished by inhaling CBD, suggesting an antagonistic pharmacodynamics interaction of THC and CBD. 51recent review of clinical trials of pain reduction by cannabis showed that cannabis-based medicines were most effective as adjuvant therapeutics in refractory multiple sclerosis and in managing chronic rheumatoid pain. 52Another group in New Zealand drew a similar conclusion after reviewing the literature on the usage of cannabis-based medicinal products for arthritis.They noted that while animal studies have shown a potential effect of cannabis products on arthritis pain, one randomized placebocontrolled study of Sativex® did not show an advantage over standard conventional pharmacological treatments.Therefore, they concluded that due to a lack of clear evidence, doctors should not be advised to prescribe cannabis-based medicines for arthritis. 53It is hypothesized that the analgesic activity of THC in chronic pain involves the function of two major cognitive-emotional modulating areas and their connections to somatosensory areas (summarized in Table 3). 54

Retrospective Studies of Medicinal Cannabis Use
Retrospective studies in the form of exploratory cross-sectional surveys about recreational cannabis use among diagnosed rheumatology patients before and after cannabis legalization in Canada revealed that, after legalization, the percentage of cannabis users tripled from 4.3% to 12.6%.Half of the users had OA and used it for pain relief.Usually, the medicinal cannabis users were previous or current recreational users or with a history of drug abuse, younger than non-users, male, and of a low socioeconomic background.Different routes of application were used, ranging from smoking, vaporizing, and oral administration, and users lacked knowledge about product content.Only 20% of cannabis was acquired by the medicinal route, and only onethird reported marijuana use to their rheumatologist.[57] Similar results were obtained in a retrospective nationwide survey from the United Kingdom, carried out from 1998 to 2002.A self-administered questionnaire about cannabis use completed by 2,969 participants revealed that medicinal cannabis was used for chronic pain (25%), multiple sclerosis and depression (22% each), arthritis (26%), and neuropathy (19%).Medicinal cannabis use was associated with younger age, male gender, and previous recreational use.The frequency of cannabis use was daily (35%), 3-5 days per week (23%), 1-2 days per week (15%), and less frequent (27%).The main administration route was smoking (82%), followed by eating (43%), drinking tea (28%), and other routes (14%).Symptom improvement was seen in 68% of users and a slight improvement by 27%.Users also stated that cannabis worked better (45%) or somewhat better (28%) compared to other medicines.Side effects compared to other medications were worse (6%), somewhat worse (23%), and the same (54%).After stopping cannabis intake, 77% of users stated that their symptoms returned or worsened.The authors concluded that this survey gave a broad picture of medicinal cannabis use and supported further development of safe and effective cannabis-based medicines. 58recent meta-analysis came to a similar conclusion.Of 29,000 patients, 10,873 were cannabis users (40.4%), of which 15.3% were current users.A higher percentage of patients with fibromyalgia (68.2%), compared to 26.0% of patients with RA or lupus erythematosus, used cannabis.Cannabis users were younger of age (58.4% versus 63.6%), smokers (2.91% versus 1.84%), unemployed (2.4% versus 1.31%), and with higher pain intensity (5.0% versus 4.1%) compared to non-users.Cannabis consumption helped reduce the pain intensity on a VAS scale from 8.2 to 5.6.The meta-analysis concluded that about 20% of patients with rheumatoid diseases who actively consume cannabis report an improvement in pain (summarized in Table 4). 59

Adverse Effects of Cannabis
Although adverse effects of cannabis-based medicinal extracts have been mainly described as mild and reversible, some studies have shown that patients consuming natural cannabis discontinued use due to side effects.These adverse effects mainly concern psychomotor and cognitive skills and the cardiovascular system. 61Psychomotor skill effects, including increased reaction time, disturbed selective attention, short-term memory, and motor control, are  immediately affected by cannabis and can persist for up to 5 hours. 62The impact on cognition is seen as decreased learning abilities and retention of new information, and can last up to a few days.Moreover, driving ability and alertness are seriously impaired for up to 24 hours after herbal cannabis consumption, 63 so it is not surprising that 0.5% to 7.6% of seriously injured drivers were found to be cannabis users. 64vere cardiovascular events in connection with acute herbal cannabis use include tachycardia, hypotension, 65 and an increased risk of myocardial infarction for people with angina pectoris. 66In a French Addictovigilance Network report, 35 vascular events were described between 2006 and 2010, with 26% leading to cardiovascular death. 67gular cannabis use, especially in adolescents, might lead to a dose-dependent decline in cognitive performance and short-term memory, as well as mood disorders and even psychosis. 68e prevalence of medical cannabis use is steadily rising in the medical histories of individuals suffering from chronic pain.This global trend is exemplified, in part, by the fact that 40% of cancer patients turn to cannabis for pain relief in regions where medical cannabis is legally accessible, including countries like Canada, Germany, and Israel. 56onsequently, cancer patients may be at a higher risk of experiencing side effects and developing a dependence on cannabis.
With respect to cancer development, cannabis is often perceived as relatively benign, particularly in comparison to tobacco.However, recent research has revealed that smoking cannabis can lead to the production of carcinogens, such as nitrosamines and polycyclic aromatic hydrocarbons, which are akin to those found in cigarette smoke. 69Furthermore, cannabis smoke contains immunosuppressive agents and a mix of potentially mutagenic substances. 691Despite these discoveries, cannabis, unlike tobacco and alcohol, has not been conclusively established as a risk factor for cancer.Nonetheless, basic laboratory studies have demonstrated the mutagenic potential of cannabis in vitro. 70going Clinical Trials Only one ongoing interventional clinical trial was found in the National Library of Medicine's database (ClinicalTrials.gov),conducted by Elizabeth Aston from Brown University, Providence, Rhode Island, United States.This double-blind, placebo-controlled, crossover study is currently recruiting 76 patients with psoriatic and rheumatoid arthritis to investigate the impact of cannabis on inflammation and pain.Cannabis with medium THC or medium CBD content will be administered via vaporization in two experimental sessions, and pain will be evaluated via self-reports.This phase 2 clinical trial will be the first study worldwide to examine the impact of two different cannabinoids in a clinical trial among patients with psoriatic arthritis or RA and may help develop a standard of care for the use of cannabinoids for arthritic treatment. 71ditionally, an observational study with 500 participants diagnosed with RA, spondyloarthritis, or psoriatic arthritis is examining the prevalence of cannabis use and aims to refine the characteristics of consumption and risk factors.This study hopes to further improve the overall management of patients with inflammatory rheumatic diseases. 72

CONCLUSION
Preclinical in vitro and in vivo studies show promising results regarding the anti-arthritic properties of cannabinoids, psychoactive and non-psychoactive cannabinoids alike.These anti-arthritic properties are mediated by anti-inflammatory effects of cannabinoids, including inhibiting the production of proinflammatory cytokines and nitric oxide, as well as the proliferation of synovial fibroblasts (Figure 2).These effects were primarily observed in preclinical in vitro and ex vivo studies as well as in animal models since clinical studies are scarce.One clinical study observed an increase in proinflammatory Th17 helper cells after the consumption of CBD oil in patients with RA.It was suggested that cannabinoid receptor variability might contribute to this discrepancy between preclinical animal and human results. 47Moreover, different cannabis strains can lead to different outcomes. 73Therefore, clinical studies that utilize well-defined cannabis strains will be able to target the outcome better and define the anti-arthritic properties of the administered cannabis strains.
Future research should focus on determining the exact anti-inflammatory properties of cannabis components for specific strains to more accurately provide targeted therapy to appropriate patients.This is one aspect of cannabis research that our research center is pursuing.Scheme depicts the most important immune cells in the synovial fluid that contribute to the development of rheumatoid diseases and where cannabis has an anti-arthritic impact.Cannabis inhibits the proliferation of synovial fibroblasts, secretion of pro-inflammatory cytokines from immune cells, and the secretion of nitric oxide synthases, such as inducible NO synthase (iNOS), from chondrocytes, which prevents cartilage damage.

Figure 1 .
Figure 1.Phytocannabinoids: A Representative List Found in the Cannabis Plant.

Figure 2 .
Figure 2. Anti-arthritic Properties of Cannabinoids.Scheme depicts the most important immune cells in the synovial fluid that contribute to the development of rheumatoid diseases and where cannabis has an anti-arthritic impact.Cannabis inhibits the proliferation of synovial fibroblasts, secretion of pro-inflammatory cytokines from immune cells, and the secretion of nitric oxide synthases, such as inducible NO synthase (iNOS), from chondrocytes, which prevents cartilage damage.